Activity #1: Significant Figures Kahoot!
|
|
- Alvin Watson
- 5 years ago
- Views:
Transcription
1 CSAS: 4th Floor MacOdrum Library What to Bring: This worksheet (either printed or digitally) Scientific Calculator Ruler and protractor (if you have one) Paper and pencil for working out problems Your laptop or cellphone Activity #1: Significant Figures Kahoot! This game will get you more comfortable with the concept of significant figures. For this activity, you will need to use your cellphone to connect to the game. Go to and enter the code on the board to join the game.
2 CSAS: 4th Floor MacOdrum Library Activity #2: Position, Velocity, and Vectors! For the following questions, each student will be given 3 minutes to think about, and attempt the problem. When the time is up, they will get 2 minutes to discuss the problem with their partner. It will then be opened up to a class discussion about how to solve the problem. Scalar Value: Vector Value: 1) Identify the following actions as either a scalar, or vector value: A car travelling at 66 km/hr down the highway A person walking north at 0.5 m/s A dog running A cat riding up in an elevator at 1 m/s 2 minutes of time pass as we answer these questions 125 L of water exist in a tank The temperature of a backyard is recorded at 15 degrees Celsius Usain Bolt sprints a 100-metre dash towards the finish line A 200lbs weight sits on the floor An astronaut rides in a spaceship accelerating towards the ISS
3 David Bell CSAS: 4th Floor Library 2) Cam drives from Carleton University to Renfrew in 1 hour. Renfrew is about 98 kilometres from Carleton. What is his average velocity in km/hr? What is it in m/s? 3) It takes Chris 3 hours to complete his trail hike in Algonquin Park. His average velocity for the hike is 1.3 m/s. How long is the trail? (In other words, what is his displacement?) 4) Megan is skiing. She starts at the top of the hill at rest, and allows gravity to do the work pulling her down. When she reaches the bottom of the hill, she is travelling at 10 m/s. If her acceleration was 0.16 m/s2, how long did the trip down the hill last? 5) Joe is driving a boat across a lake. His top speed is 18 m/s in the middle of the lake, but then he begins to slow down uniformly as he moves towards the dock that is 1.2 kilometres away. By the time he reaches the dock, he has come to a complete stop. What is the acceleration? (Keep in mind axis maybe draw a diagram). 6) Sarah stands on a ledge and throws a ball straight up into the air. 6.5 seconds later, the ball lands on the ground. The distance between the ball and Sarah s hand is metres. What was the ball s initial velocity? What was its final velocity? (Remember! Acceleration due to gravity is 9.81 m/s2 towards the Earth).
4 Activity #3: Vector Addition and Subtraction! A problem will be presented on the board. The board is divided into 4 sections: Prerequisite knowledge, mathematical steps, narrative of the steps, and additional sample problem. One student will fill out section 1 on the board. Then, two students will simultaneously complete section 2 and 3 on the board. Lastly, another student will complete the 4th section. We will then have a group discussion about the answers. Prerequisite Skills Solution Steps Mistakes I Made Helpful Hints
5 1) Vector A is 13cm long, and exists at 45 degrees above the positive X axis Vector B is 14 cm long, and exists at 65 degrees above the positive X axis If A + B = C, find C by the tail-to-tip method (graph will be drawn on board in workshop) 2) A man is on a hiking trip in Alaska. His trip can be represented by two vectors. Vector A represents a 5 km section, travelling 80 degrees North of East Vector B represents an 8 km section, travelling 45 degrees North of East Find the man s net displacement by components method (graph will be drawn on board in workshop) 3) Brad is driving a car. First, he travels at 33 m/s, 45 degrees North of East (Vector A). He then slows down to 21 m/s, and turns to 30 degrees South of East (Vector B). If A + B = C, Find vector C by components method (graph will be drawn on board in workshop)
6 Resources For Your Success! PASS is just one of the many resources available to you. The name of a resource will be announced to the room, and questions about it will be answered by searching both the syllabus and culearn.
3. Approximately how far will an object near Earth's surface fall in 3.0 seconds? m m m m
Page 1 of 5 Sub work 10-10-02 Name 12-OCT-03 1. A car travels a distance of 98 meters in 10. seconds. What is the average speed of the car during this 10.-second interval? 1. 4.9 m/s 3. 49 m/s/ 2. 9.8
More informationRemeber this? You still need to know this!!!
Remeber this? You still need to know this!!! Motion: Speed: Measure of how fast something is moving Speed = Distance Time Speed is a rate: something divided by time SI units for Speed: (m/s) Instantaneous
More informationVectors. Wind is blowing 15 m/s East. What is the magnitude of the wind s velocity? What is the direction?
Physics R Scalar: Vector: Vectors Date: Examples of scalars and vectors: Scalars Vectors Wind is blowing 15 m/s East. What is the magnitude of the wind s velocity? What is the direction? Magnitude: Direction:
More information1. At what speed must you throw a ball vertically in order to reach the top of a building, 12m tall? Vectors
Physics R Date: 1. At what speed must you throw a ball vertically in order to reach the top of a building, 12m tall? Scalar: Vectors Vectors Scalars Vector: Wind is blowing 15 m/s East. What is the magnitude
More informationAverage speed is calculated by taking the total distance travelled and dividing it by the total time:
Speed Calculations Now that you know your definitions, you ll learn how to calculate some of the quantities. The following formulas are all very similar, but their slight differences are important since
More informationPhysics Acceleration and Projectile Review Guide
Physics Acceleration and Projectile Review Guide Name: Major Concepts 1-D motion on the horizontal 1-D motion on the vertical Relationship between velocity and acceleration https://www.khanacademy.org/science/physics/one-dimensional-motion/acceleration-tutorial/a/acceleratio
More informationDo Now 10 Minutes Topic Speed and Velocity
Do Now 10 Minutes Topic Speed and Velocity Clear off everything from your desk, except for a calculator and something to write with. We re taking a pop quiz. Homework Complete the Distance vs. Displacement
More informationD) 83 m D) Acceleration remains the same and speed increases. C) 216 m B) 6.0 m shorter A) 4.5 s A) 15 km/hr C) 47 m C) 20 m/sec B) 20 m/sec
1. A truck, initially traveling at a speed of 22 meters per second, increases speed at a constant rate of 2.4 meters per second 2 for 3.2 seconds. What is the total distance traveled by the truck during
More informationREVIEW : KINEMATICS
1 REVIEW 5-4-16: KINEMATICS Kinematics-Defining Motion 1 A student on her way to school walks four blocks east, three blocks north, and another four blocks east, as shown in the diagram. Compared to the
More informationJeddah Knowledge International School. Science Revision Pack Answer Key Quarter 3 Grade 10
Jeddah Knowledge International School Science Revision Pack Answer Key 2016-2017 Quarter 3 Grade 10 Name: Section: ANSWER KEY- SCIENCE GRADE 10, QUARTER 3 1 1. What are the units for mass? A Kilograms
More informationBroughton High School of Wake County
1 2 Physical Science Notebook Table of Contents Chapter 2 Motion: Speed & Acceleration Pg. # Date Description Turned In 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Received Back 3
More informationJR. GENIUS EDUCATIONAL SERVICES INC.
1 Name: 1. Multiple Choice: 25 marks Copy to Scantron Card after finding the answer on the sheet. Fill in the Scantron card in the last 5 min. of the test. Do Short section first. 1. You are riding your
More informationThe bus has to stop a few times. The figure below shows the distance time graph for part of the journey. Time in seconds
HW Acceleration / 55 Name Q1.A bus is taking some children to school. The bus has to stop a few times. The figure below shows the distance time graph for part of the journey. Time in seconds How far has
More informationLINEAR MOTION. General Review
LINEAR MOTION General Review 1. Velocity is to speed as displacement is to A. acceleration B. momentum C. time D. distance 1. Velocity is to speed as displacement is to A. acceleration B. momentum C. time
More informationPhysics 2204 Worksheet 6.5: Graphical Analysis of Non- Uniform Motion D-T GRAPH OF NON-UNIFORM MOTION (ACCELERATING) :
Physics 2204 Worksheet 6.5: Graphical Analysis of Non- Uniform Motion D-T GRAPH OF NON-UNIFORM MOTION (ACCELERATING) : The d-t graph for uniformly Accelerated motion is definitely not the same as a d-t
More informationReview - Kinematic Equations
Review - Kinematic Equations 1. In an emergency braking exercise, a student driver stops a car travelling at 83 km/h [W] in a time of 4.0 s. What is the car s acceleration during this time? (The answer
More informationWorksheet 1.1 Kinematics in 1D
Worksheet 1.1 Kinematics in 1D Solve all problems on your own paper showing all work! 1. A tourist averaged 82 km/h for a 6.5 h trip in her Volkswagen. How far did she go? 2. Change these speeds so that
More informationKinematics Review. What distance did the object travel in moving from point A to point B? A) 2.5 m B) 10. m C) 20. m D) 100 m
Kinematics Review 1. Base your answer to the following question on the diagram below which represents a 10-kilogram object at rest at point A. The object accelerates uniformly from point A to point B in
More informationChapter 11 Motion. Displacement-. Always includes Shorter than distance
Chapter 11 Motion Section 1 - an object s change in position relative to a reference point. Observe objects in to other objects. international unit for. Frame of Reference Frame of reference- a system
More informationPhysics P201 D. Baxter/R. Heinz
Seat # Physics P201 D. Baxter/R. Heinz EXAM #1 September 20, 2001 7:00 9:00 PM INSTRUCTIONS 1. Sit in SEAT # given above. 2. DO NOT OPEN THE EXAM UNTIL YOU ARE TOLD TO DO SO. 3. Print your name (last name
More informationat home plate at 1st base at 2nd base at 3rd base back at home distance displacement
You might need a calculator: The typical baseball diamond is a square 90 ft long on each side. Suppose a player hits a homerun and makes one complete trip from home plate, around the bases, and back to
More informationCh. 2 & 3 Velocity & Acceleration
Ch. 2 & 3 Velocity & Acceleration Objective: Student will be able to Compare Velocity to Speed Identify what is acceleration Calculate velocity and acceleration from an equation and from slope of a graph.
More informationPhysics 11 Unit III Practice Test Projectile Motion. Instructions: Pick the best answer available in Part A and Show all your work for Part B
Physics 11 Unit III Practice Test Projectile Motion Instructions: Pick the best answer available in Part A and Show all your work for Part B 1. Which of the following is constant for all projectiles? A.
More informationMotion, Vectors, and Projectiles Review. Honors Physics
Motion, Vectors, and Projectiles Review Honors Physics The graph below represents the relationship between velocity and time of travel for a toy car moving in a straight line. The shaded area under the
More informationa. Determine the sprinter's constant acceleration during the first 2 seconds. b. Determine the sprinters velocity after 2 seconds have elapsed.
AP Physics 1 FR Practice Kinematics 1d 1 The first meters of a 100-meter dash are covered in 2 seconds by a sprinter who starts from rest and accelerates with a constant acceleration. The remaining 90
More informationUnit 3 ~ Learning Guide Name:
Unit 3 ~ Learning Guide Name: Instructions: Using a pencil, complete the following notes as you work through the related lessons. Show ALL work as is explained in the lessons. You are required to have
More informationHONORS PHYSICS One Dimensional Kinematics
HONORS PHYSICS One Dimensional Kinematics LESSON OBJECTIVES Be able to... 1. use appropriate metric units and significant figures for given measurements 2. identify aspects of motion such as position,
More informationKinematics-Projectiles
1. A volleyball hit into the air has an initial speed of 10 meters per second. Which vector best represents the angle above the horizontal that the ball should be hit to remain in the air for the greatest
More informationMidterm Exam: Making a Study Guide
Name: Class: Physics Teacher: Mr. Szopiak Date: Midterm Exam: Making a Study Guide This worksheet will help you and your classmates put together a pretty comprehensive guide to your midterm studying. Your
More informationName: Date Due: Motion. Physical Science Chapter 2
Name: Date Due: Motion Physical Science Chapter 2 What is Motion? 1. Define the following terms: a. motion= a. frame of reference= b. distance= c. vector= d. displacement= 2. Why is it important to have
More informationCompare the scalar of speed and the vector of velocity.
Review Video QOD 2/14/12: Compare the scalar of speed and the vector of velocity. What are the equations for each? Feb 14 6:51 AM 1 Imagine that you are a race car driver. You push on the accelerator.
More informationFor example, the velocity at t = 10 is given by the gradient of the curve at t = 10, 10 t
R15 INTERPRET THE GRADIENT AT A POINT ON A CURVE AS THE INSTANTANEOUS RATE OF CHANGE; APPLY THE CONCEPTS OF AVERAGE AND INSTANTANEOUS RATE OF CHANGE (GRADIENTS OF CHORDS AND TANGENTS) IN NUMERICAL, ALGEBRAIC
More informationMotion and Speed Classwork Classwork #1
Motion and Speed Classwork Classwork #1 8 th Grade PSI 1. Define motion. 2. When you look at the ground, you seem to be at rest. Why is this? Why does someone in space see you moving in a circle? 3. Define
More informationFigure 1. What is the difference between distance and displacement?
Q1.A train travels from town A to town B. Figure 1 shows the route taken by the train. Figure 1 has been drawn to scale. Figure 1 (a) The distance the train travels between A and B is not the same as the
More informationEg.#1 A diver steps off a 10. m. high diving board with an initial vertical velocity of zero and experiences an average acceleration 2
1.3.1 Acceleration due to Gravity Defined as: For many years, it was thought that higher mass objects fall towards the Earth more quickly than lower mass objects. This idea was introduced in approximately
More informationPhysics Final Exam Review Fall 2013
Physics Final Exam Review Fall 2013 The lines on the graph represent displacement vectors for the route along which a person moves. Use the figure to answer problems 1 2. 1. What is the total distance
More informationThe speed of an inline skater is usually described in meters per second. The speed of a car is usually described in kilometers per hour.
The speed of an inline skater is usually described in meters per second. The speed of a car is usually described in kilometers per hour. Speed How are instantaneous speed and average speed different? Average
More information1. Which one of the following is a vector quantity? A. time B. speed C. energy D. displacement
1. Which one of the following is a vector quantity? A. time B. speed C. energy D. displacement 2. A car is travelling at a constant speed of 26.0 m/s down a slope which is 12.0 to the horizontal. What
More informationKinematics 1. A. coefficient of friction between the cart and the surface. B. mass of the cart. C. net force acting on the cart
Kinematics 1 Name: Date: 1. 4. A cart moving across a level surface accelerates uniformly at 1.0 meter per second 2 for 2.0 seconds. What additional information is required to determine the distance traveled
More informationFigure 1. What is the difference between distance and displacement?
Q1.A train travels from town A to town B. Figure 1 shows the route taken by the train. Figure 1 has been drawn to scale. Figure 1 (a) The distance the train travels between A and B is not the same as the
More information8.6B SS - differentiate between speed, velocity, and acceleration
8.6B SS - differentiate between speed, velocity, and acceleration What is the difference between speed, acceleration and velocity? How is speed calculated? How do we know if something is moving quickly
More information7.3.2 Distance Time Graphs
7.3.2 Distance Time Graphs 35 minutes 39 marks Page 1 of 11 Q1. A cyclist goes on a long ride. The graph shows how the distance travelled changes with time during the ride. (i) Between which two points
More informationYou should know how to find the gradient of a straight line from a diagram or graph. This next section is just for revision.
R1 INTERPRET THE GRADIENT OF A STRAIGHT LINE GRAPH AS A RATE OF CHANGE; RECOGNISE AND INTERPRET GRAPHS THAT ILLUSTRATE DIRECT AND INVERSE PROPORTION (foundation and higher tier) You should know how to
More information1.6.1 Inertial Reference Frames
1.6.1 Inertial Reference Frames The laws of physics which apply when you are at rest on the earth also apply when you are in any reference frame which is moving at a constant velocity with respect to the
More information1D Kinematics Answer Section
1D Kinematics 1. A bird, accelerating from rest at a constant rate, experiences a displacement of 28 m in 11 s. What is the average velocity? a. 1.7 m/s c. 3.4 m/s b. 2.5 m/s d. zero 2. A truck moves 70
More informationIntroduction to solving acceleration problems
Introduction to solving acceleration problems We learned previously that speed is a function of distance and time: s = d t We also learned that velocity is a nearly identical formula. The difference is
More informationUnit 1 Uniform Velocity & Position-Time Graphs
Name: Unit 1 Uniform Velocity & Position-Time Graphs Hr: Grading: Show all work, keeping it neat and organized. Show equations used and include units in all work. Vocabulary Distance: how far something
More informationUnit 2 Review: Projectile Motion
Name: Unit 2 Review: Projectile Motion Date: 1. A projectile is fired from a gun near the surface of Earth. The initial velocity of the projectile has a vertical component of 98 meters per second and a
More informationMotion, Displacement Velocity and Acceleration
Motion, Displacement velocity and Acceleration Question paper 1 Level GCSE Subject Physics Exam Board CCEA Topic Motion Sub-Topic Motion, Displacement Velocity and Acceleration Booklet Question paper 1
More informationEquilibrium. Observations
Equilibrium Observations When you look closely at a rope you will see that it consists of several strands of twine. If you tried to hang a heavy (or massive) object on a single strand of twine it would
More informationForce and Motion Test Review
Name: Period: Force and Motion Test Review 1. I can tell you that force is.. 2. Force is measured in units called. 3. Unbalanced forces acting on an object will MOST LIKELY cause the object to A. remain
More informationBounds. Find the upper and lower bounds of the following: 1) 50m rounded to the nearest 10m. Upper Bound = Lower Bound =
Bounds Find the upper and lower bounds of the following: 1) 50m rounded to the nearest 10m. 2) 90m rounded to the nearest 10m. 3) 130m rounded to the nearest 10m. 4) 250m rounded to the nearest 10m. 5)
More informationHonors Assignment - Vectors
Honors Assignment - Vectors Reading Chapter 3 Homework Assignment #1: Read Chap 3 Sections 1-3 M: #2, 3, 5 (a, c, f), 6-9 Homework Assignment #2: M: #14, 15, 16, 18, 19 Homework Assignment #3: Read Chap
More informationPhysics 11 Honours Lesson 3 Distance and Displacement
Name: Block: Physics 11 Honours Lesson 3 Distance and Displacement In physics, every measured quantity is either a or a. Scalars: For example: Vectors: For example: Note: Vectors are either written in
More informationNote! In this lab when you measure, round all measurements to the nearest meter!
Distance and Displacement Lab Note! In this lab when you measure, round all measurements to the nearest meter! 1. Place a piece of tape where you will begin your walk outside. This tape marks the origin.
More information1 An object moves at a constant speed of 6 m/s. This means that the object:
Slide 1 / 57 1 n object moves at a constant speed of 6 m/s. This means that the object: Increases its speed by 6 m/s every second ecreases its speed by 6 m/s every second oesn t move Has a positive acceleration
More informationPHYSICS Unit 2 Key Topic Test 1 Aspects of Motion QUESTION BOOK. Student Name:
Student Name: PHYSICS 2014 Unit 2 Key Topic Test 1 Aspects of Motion Recommended writing time*: 45 minutes Total number of marks available: 45 marks QUESTION BOOK SECTION A MULTIPLE-CHOICE QUESTIONS SECTION
More informationSPEED, VELOCITY, ACCELERATION, & NEWTON STUDY GUIDE - Answer Sheet 1) The acceleration of an object would increase if there was an increase in the
SPEED, VELOCITY, ACCELERATION, & NEWTON STUDY GUIDE - Answer Sheet 1) The acceleration of an object would increase if there was an increase in the A) mass of the object. B) force on the object. C) inertia
More informationGroup Tutorial: Air Hockey Table on a Metro Bus
Driver ou and your roommate are traveling across campus on a very strange Madison Metro bus that happens to have an air hockey table set up with the long side of the table perpendicular to the length of
More informationLINEAR AND ANGULAR KINEMATICS Readings: McGinnis Chapters 2 and 6 DISTANCE, DISPLACEMENT, SPEED, VELOCITY, AND ACCELERATION:
LINEAR AND ANGULAR KINEMATICS Readings: McGinnis Chapters 2 and 6 1 DISTANCE, DISPLACEMENT, SPEED, VELOCITY, AND ACCELERATION: How far? Describing change in linear or angular position Distance (Scalar
More informationForce, Motion and Energy Review
NAME Force, Motion and Energy Review 1 In the picture to the right, two teams of students are playing tug-of-war. Each team is pulling in the opposite direction, but both teams are moving in the same direction.
More informationSpeed/Time Graphs GCSE MATHEMATICS. These questions have been taken or modified from previous AQA GCSE Mathematics Papers.
GCSE MATHEMATICS /Time Graphs These questions have been taken or modified from previous AQA GCSE Mathematics Papers. Instructions Use black ink or black ball-point pen. Draw diagrams in pencil. Answer
More informationBasic Formulae. Speed Time & Distance. Speed Time & Distance: Train Problems
Basic Formulae Speed Time & Distance Train Problems: Basic Concepts and Formulae- Distance Speed = Time Time = Distance / Speed Distance = Speed Time 1 m/s = 18/5 Km/hr 1 km/hr = 5/18 m/s Relative Speed
More informationScience 421 Class Test: Unit Analysis and Significant Figures in Measurement and Calculations
Science 421 Class Test: Unit Analysis and Significant Figures in Measurement and Calculations 1) How many significant figures are in each of the following measurements? (1 point each) A) 593 cm B) 0.014
More informationDue Next Class: U1.HW1.Dist/Disp & P-t Graphs All (problems 1-3) Do Now: 1. Walk in silently.
Do Now: 1. Walk in silently. Due Next Class: U1.HW1.Dist/Disp & P-t Graphs All (problems 1-3) 2. Grab a calculator and any papers for today. 3. Put your homework on the corner of your desk. 4. Usain Bolt
More informationPhysics 2204 Review for test 3 Vectors and The first four sections of Unit 2
Physics 2204 Review for test 3 Vectors and The first four sections of Unit 2 1 You set out in a canoe from the east shore of a south-flowing river. To maximize your velocity relative to the shore you should
More informationVectors. and Projectiles. 2-1 Vectors and Scalars. Vocabulary. Vector: A quantity with magnitude (size) and direction.
,- Vectors and Projectiles 2-1 Vectors and Scalars Vocabulary Vector: A quantity with magnitude (size) and direction. Some examples of vectors are displacement, velocity acceleration, and force. Vocabulary
More information2. A car, starting from rest, accelerates in a straight-line path at a constant rate of 2.0 m/s 2. How far will the car travel in 12 seconds?
Name: Date: 1. Carl Lewis set a world record for the 100.0-m run with a time of 9.86 s. If, after reaching the finish line, Mr. Lewis walked directly back to his starting point in 90.9 s, what is the magnitude
More informationPractice Test: Vectors and Projectile Motion
ame: Practice Test: Vectors and Projectile Motion Part A: Multiple Choice [15 points] 1. A projectile is launched at an angle of 30 0 above the horizontal. eglecting air resistance, what are the projectile
More informationCHAPTER 1. Knowledge. (a) 8 m/s (b) 10 m/s (c) 12 m/s (d) 14 m/s
CHAPTER 1 Review K/U Knowledge/Understanding T/I Thinking/Investigation C Communication A Application Knowledge For each question, select the best answer from the four alternatives. 1. Which is true for
More informationLesson 5. Section 2.2: Trigonometric Functions of an Acute Angle 1 = 1
Lesson 5 Diana Pell March 6, 2014 Section 2.2: Trigonometric Functions of an Acute Angle 1 = 1 360 We can divide 1 into 60 equal parts, where each part is called 1 minute, denoted 1 (so that 1 minute is
More informationPhys 101 College Physics I ` Student Name: Additional Exercises on Chapter 3
Phys 0 College Physics I ` Student Name: Additional Exercises on Chapter ) A displacement vector is.0 m in length and is directed 60.0 east of north. What are the components of this vector? Choice Northward
More information7.3.9 Unbalanced forces
7.3.9 Unbalanced forces 77 minutes 116 marks Page 1 of 33 Q1. The graph shows the results of a test in which a car accelerates to its maximum speed. (a) (i) Describe how the acceleration of the car changes
More information1. The graph below shows how the velocity of a toy train moving in a straight line varies over a period of time.
1. The graph below shows how the velocity of a toy train moving in a straight line varies over a period of time. v/m s 1 B C 0 A D E H t/s F G (a) Describe the motion of the train in the following regions
More informationName: Class: Date: Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.
Class: Date: Chapter 3 Review Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.. Which of the following is a physical quantity that has a magnitude
More informationThe purpose of this experiment is to find this acceleration for a puck moving on an inclined air table.
Experiment : Motion in an Inclined Plane PURPOSE The purpose of this experiment is to find this acceleration for a puck moving on an inclined air table. GENERAL In Experiment-1 you were concerned with
More informationUnit 2: Kinematics in 1-D Exam Preparation
Unit 2: Kinematics in 1-D Exam Preparation 1. 1. A bike first accelerates from 0.0 m/s to 5.0 m/s in 4.5 s, then continues at this constant speed for another 4.5 s. What is the total distance traveled
More informationRate of Speed P.O.D. October 5, Last summer Ms. Moore hiked two different trails and got the data below.
Rate of Speed October 5, 2017 P.O.D. Learning Target: Last summer Ms. Moore hiked two different trails and got the data below. Staunton State Park Arapahoe Lake Start: 9 am End: 3:00 pm Mileage: 11 miles
More information1.0 Converting. 1. What is the speed of a person walking at 3.1 mph in m/s? Show your work and box your answer (check your units)
1.0 Converting There are 1,609.34 meters in one mile. One meter equals 3.28 feet. I mph equals 0.44704 m/s 1. What is the speed of a person walking at 3.1 mph in m/s? Show your work and box your answer
More informationNEWTON S LAWS OF MOTION
NEWTON S LAWS OF MOTION Force The ability to cause a change in a state of motion of an object (Vector) The only thing that can cause an object to accelerate is a Force An object at rest will remain at
More informationPhys 201A. Lab 6 - Motion with Constant acceleration Kinematic Equations
Phys 201A Lab 6 - Motion with Constant acceleration Kinematic Equations Problems: It would be good to list your four kinematic equations below for ready reference. Kinematic equations 1) An amateur bowler
More informationGeneral Physics Physics 101 Test #1 Fall 2018 Friday 9/21/18 Prof. Bob Ekey
General Physics Physics 101 Test #1 Fall 2018 Friday 9/21/18 Prof. Bob Ekey Name (print): I hereby declare upon my word of honor that I have neither given nor received unauthorized help on this work. Signature:
More informationMotion. 1 Describing Motion CHAPTER 2
CHAPTER 2 Motion What You ll Learn the difference between displacement and distance how to calculate an object s speed how to graph motion 1 Describing Motion 2(D), 4(A), 4(B) Before You Read Have you
More informationExploration Series. MODEL ROCKET Interactive Physics Simulation Page 01
MODEL ROCKET ------- Interactive Physics Simulation ------- Page 01 How high will your model rocket fly? At liftoff, the rocket engine is ignited and a thrust force is generated. The rocket accelerates
More informationTeaching Notes. Contextualised task 35 The 100 Metre Race
Contextualised task 35 The 100 Metre Race Teaching Notes This activity involves interpreting data presented in different forms to compare speed, distance and time. The aim is to find who might win a race
More information1. A rabbit can cover a distance of 80 m in 5 s. What is the speed of the rabbit?
Chapter Problems Motion at Constant Speed Class Work. A rabbit can cover a distance of 80 m in 5 s. What is the speed of the rabbit?. During the first 50 s a truck traveled at constant speed of 5 m/s.
More informationAP Physics Chapter 2 Practice Test
AP Physics Chapter 2 Practice Test Answers: E,E,A,E,C,D,E,A,C,B,D,C,A,A 15. (c) 0.5 m/s 2, (d) 0.98 s, 0.49 m/s 16. (a) 48.3 m (b) 3.52 s (c) 6.4 m (d) 79.1 m 1. A 2.5 kg ball is thrown up with an initial
More informationUnit 2: Kinematics in 1-D Exam Preparation
Unit 2: Kinematics in 1-D Exam Preparation 1. 1. A bike first accelerates from 0.0 m/s to 5.0 m/s in 4.5 s, then continues at this constant speed for another 4.5 s. What is the total distance traveled
More informationP2a Force, Acceleration and Graphs
P2a Force, Acceleration and Graphs 37 minutes 37 marks 90% - A* 80% - A 70% - B 60% - C 50% - D 40% - E 30% - F 20% - G Page 1 of 11 Q1. (a) The diagram shows two forces acting on an object. What is the
More informationDATA EQUATIONS MATH ANSWER
HCP PHYSICS REVIEW SHEET MID TERM EXAM Concepts And Definitions 1. Definitions of fact, hypothesis, law, theory 2. Explain the scientific method 3. Difference between average and instantaneous speed and
More informationSection 1. Objectives:
Chapter 2 Motion Objectives: Section 1 Use a frame of reference to describe motion Differentiate between Speed and Velocity Calculate the speed of an object Use graphs to describe speed Observing Motion
More informationUnit Conversion Worksheet
Name: Period Date: Unit Conversion Worksheet Conversions 1 hour = 3600 seconds 1 mile = 5280 feet 1 yard = 3 feet 1 meter = 3.28 feet 1 km = 0.62 miles 1 light second = 300,000,000 meters 1 kg = 2.2 lbs
More informationREAL LIFE GRAPHS M.K. HOME TUITION. Mathematics Revision Guides Level: GCSE Higher Tier
Mathematics Revision Guides Real Life Graphs Page 1 of 19 M.K. HOME TUITION Mathematics Revision Guides Level: GCSE Higher Tier REAL LIFE GRAPHS Version: 2.1 Date: 20-10-2015 Mathematics Revision Guides
More informationChapter 11 Motion. Section 1
Chapter 11 Motion Objectives: Section 1 Use a frame of reference to describe motion Differentiate between Speed and Velocity Calculate the speed of an object Use graphs to describe speed 1 Observing Motion
More informationFigure 1. The distance the train travels between A and B is not the same as the displacement of the train.
THE DISTANCE-TIME RELATIONSHIP Q1. A train travels from town A to town B. Figure 1 shows the route taken by the train. Figure 1 has been drawn to scale. Figure 1 (a) The distance the train travels between
More informationVocabulary. Page 1. Distance. Displacement. Position. Average Speed. Average Velocity. Instantaneous Speed. Acceleration
Vocabulary Term Definition Distance Displacement Position Average Speed Average Velocity Instantaneous Speed Acceleration Page 1 Homer walked as follows: Starting at the 0,0 coordinate, he walked 12 meters
More informationWhere are you right now? How fast are you moving? To answer these questions precisely, you
4.1 Position, Speed, and Velocity Where are you right now? How fast are you moving? To answer these questions precisely, you need to use the concepts of position, speed, and velocity. These ideas apply
More informationPHYSICS 12 NAME: Kinematics and Projectiles Review
NAME: Kinematics and Projectiles Review (1-3) A ball is thrown into the air, following the path shown in the diagram. At 1, the ball has just left the thrower s hand. At 5, the ball is at its original
More informationHigher Projectile Motion Questions
Higher Projectile Motion Questions 1. a) Name the two components of motion in projectiles. b) What is the acceleration on Earth for each of these two components. 2. A pencil case is dropped vertically
More informationPhysics 2048 Test 1 Fall 2000 Dr. Jeff Saul Name:
Physics 2048 Test 1 Fall 2000 Dr. Jeff Saul Name: READ THESE INSTRUCTIONS BEFORE YOU BEGIN Before you start the test, WRITE YOUR NAME ON EVERY PAGE OF THE EXAM. Calculators are permitted, but no notes
More information